1. Benson T R, Coble M A, Dilles J H. Hydrothermal enrichment of lithium in intracaldera illite-bearing claystones. Science Advances, 2023, 9:

2. 薄朋慧, 吴士豪, 王炎, 徐飞, 李神勇, 秦身钧. 2019. 粉煤灰中有价金属元素铝、镓、锂活化浸出提取研究进展. 应用化工, 48(8): 1924–1929 [Bo P H, Wu S H, Wang Y, Xu F, Li S Y, Qin S J. 2019. Research progress of activated leaching and extraction of valuable aluminum, gallium and lithium metal elements from fly ash. Applied Chemical Industry, 48(8): 1924–1929 (in Chinese with English abstract)].

3. 曹泊, 秦云虎, 朱士飞, 傅雪海, 徐辉, 宗师. 2022. 广西上林合山组炭质泥岩中锂和稀土元素的成因及富集机制. 煤炭学报, 47(5): 1851–1864 [Cao B, Qin Y H, Zhu S F, Fu X H, Xu H, Zong S. 2022. Origin and enrichment mechanism of lithium and rare earth elements in carbonaceous mudstone of Heshan Formation, Shanglin, Guangxi. Journal of China Coal Society, 47(5): 1851–1864 (in Chinese with English abstract)].

4. 陈平, 柴东浩. 1997. 山西地块石炭纪铝土矿沉积地球化学研究. 太原: 山西科学技术出版社 [Chen P, Chai D H. 1997. Sedimentary Geochemistry of Carboniferous Bauxite Deposite in Shanxi Massif. Taiyuan: Shanxi Scientific & Technical Publishers(in Chinese with English abstract) ].

5. 程芳琴, 王波, 成怀刚. 2017. 粉煤灰提取高附加值有价元素的技术现状及进展. 无机盐工业, 49(2): 1–4 [Cheng F Q, Wang B, Cheng H G. 2017. Research progress of extracting high added value elements from fly ash. Inorganic Chemicals Industry, 49(2): 1–4 (in Chinese with English abstract)].